Difference between revisions of "Forest Electronic Instrumentation and Measurement"

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=Class Admin=
 
=Class Admin=
  
==Syllabus==
+
Get Mathematica
 +
 
 +
https://sites.google.com/a/isu.edu/mathematica/
 +
 
 +
Linear Fitting with Mathematica
 +
 
 +
http://reference.wolfram.com/mathematica/ref/LinearModelFit.html
 +
 
 +
 
 +
NonLinear Fitting
 +
 
 +
http://reference.wolfram.com/mathematica/ref/NonlinearModelFit.html
 +
 
 +
==[[TF_EIM_Syllabus]]==
  
 
==Class Policies ==
 
==Class Policies ==
Line 14: Line 27:
 
;Course Description
 
;Course Description
 
: A practical course introducing the fundamental concepts of analog electronics.  One third of the course will be used to describe the concepts in a lecture setting with the remaining time spent in a laboratory setting applying the concepts.  The course begins with a review of DC and AC analog circuits.  Semiconductor physics is introduced to lead into a study of transistors.  The use of bipolar transistors for saturated and unsaturated switches is explored.  The field effect transistor (FET)is compared with the bipolar transistor.
 
: A practical course introducing the fundamental concepts of analog electronics.  One third of the course will be used to describe the concepts in a lecture setting with the remaining time spent in a laboratory setting applying the concepts.  The course begins with a review of DC and AC analog circuits.  Semiconductor physics is introduced to lead into a study of transistors.  The use of bipolar transistors for saturated and unsaturated switches is explored.  The field effect transistor (FET)is compared with the bipolar transistor.
 +
 +
==Texts==
 +
 +
*Introductory Electronics for Scientists and Engineers, Robert E. Simpson , ISBN: 0205083773(required)
 +
*The Art of Electronics, Paul Horowitz and Winfield Hill
  
 
=Notes, Labs, and Schedule=
 
=Notes, Labs, and Schedule=
Line 22: Line 40:
 
| 1 || Chapter 1 (DC Circuits)|| [[TF_EIM_Chapt1]] || [[LabSkills_TF]]|| [[Lab_1_TF_EIM]]
 
| 1 || Chapter 1 (DC Circuits)|| [[TF_EIM_Chapt1]] || [[LabSkills_TF]]|| [[Lab_1_TF_EIM]]
 
|-
 
|-
| 2 || Chapter 2 (AC Circuits)|| [[TF_EIM_Chapt2]] ||None|| [[Lab_3_TF_EIM]]
+
| 2 || Chapter 2 (AC Circuits)|| [[TF_EIM_Chapt2]] ||[[Lab_3_TF_EIM]]|| [[Lab_3_TF_EIM]] cont.
 
|-
 
|-
| 3 || Chapter 3 (Pulses)|| [[TF_EIM_Chapt3]] ||[[Lab_4_TF_EIM]]||[[ Lab_5_TF_EIM]]
+
| 3 || Chapter 2 (cont.)|| ||[[Lab_4_TF_EIM]]||[[ Lab_4_TF_EIM]] cont.
 
|-
 
|-
| 4 || Chapter 4 (Semiconductor Physics)|| [[TF_EIM_Chapt4]] ||[[Lab_6_TF_EIM]]|| Lab #6 (cont)
+
| 4 || Chapter 2 (cont.)||  ||[[Lab_5_TF_EIM]]||[[ Lab_5_TF_EIM]] cont.
 
|-
 
|-
| 5 || Chapter 5 (Bipolar Transistors)|| [[TF_EIM_Chapt5]] ||[[Lab_8_TF_EIM]]|| [[Lab_9_TF_EIM]]
+
| 5 || Chapter 3 (Pulses)|| [[TF_EIM_Chapt3]] ||[[Lab_6_TF_EIM]]|| Lab #6 (cont)
 
|-
 
|-
| 6 || Chapt 5 (cont) || ||None||[[ Lab_10_TF_EIM]]
+
| 6 || Chapter 4 (Semiconductor Physics)|| [[TF_EIM_Chapt4]] ||[[Lab_8_TF_EIM]]|| [[Lab_8_TF_EIM]]
 
|-
 
|-
| 7 || MidTerm|| ||[[Lab_11_TF_EIM]]|| [[Lab_13_TF_EIM]]
+
| 7 || || ||[[Lab_9_TF_EIM]]||[[Lab_9_TF_EIM]]
 
|-
 
|-
| 8 || Chapt 6 (Field Effect Transistors FETs)|| [[TF_EIM_Chapt6]] ||[[Lab_14_TF_EIM]]|| [[Lab_17_TF_EIM]]
+
| 8 || MidTerm (Chapt 1-4) || || [[ Lab_10_TF_EIM]] || [[ Lab_10_TF_EIM]]  
 
|-
 
|-
| 9 || || || [[Lab_23_TF_EIM]]|| [[Lab_23_TF_EIM]]
+
| 9 || Chapter 5 (Bipolar Transistors)|| [[TF_EIM_Chapt5]] ||[[Lab_13_TF_EIM]]|| [[Lab_13_TF_EIM]]
 
|-
 
|-
| 10 || || || [[Lab_25_TF_EIM]]|| [[Lab_27_TF_EIM]]
+
| 10 |||| || [[Lab_14_TF_EIM]]|| [[Lab_14_TF_EIM]]
 
|-
 
|-
| 11 |||| || [[Lab_30_TF_EIM]]|| Lab 27
+
| 11 || || || [[Lab_14_TF_EIM]]|| [[Lab_14_TF_EIM]]
 
|-
 
|-
| 13 |||| ||Makeup Labs|| Makeup Labs
+
| 12 ||Chapt 6 (Field Effect Transistors FETs) || [[TF_EIM_Chapt6]]|| [[Lab_17_TF_EIM]] || [[Lab_17_TF_EIM]]
 
|-
 
|-
| 14 ||||  || Makeup Labs||  
+
| 13 ||Chapt 9 (Operational Amplifiers (OpAmps))  ||[[TF_EIM_Chapt9]] || [[Lab_23_TF_EIM]] || [[Lab_23_TF_EIM]]
 
|-
 
|-
| 15 |||| || Makeup Labs||  
+
| 14 || Lab Choices for Final || || [[TF_EIM_Ugrad_FinalLab]]|| [[TF_EIM_GradFinalLab]]
 
|-
 
|-
| 16 |||| || Finals||  
+
| 15 || Finals || Thursday May 7, 2015|| 12:30-2:30||  
 
|}
 
|}
 +
 +
[[Lab_11_TF_EIM]]
 +
 +
[[Lab_25_TF_EIM]] || [[Lab_27_TF_EIM]],  [[Lab_30_TF_EIM]]||
  
 
=Dan's Notes=
 
=Dan's Notes=
Line 66: Line 88:
  
  
=Lab parts list=
+
=Lab Equipment and Supplies list=
  
 
For 10 students you will need the following equipment
 
For 10 students you will need the following equipment
  
 
{| border="3"  cellpadding="20" cellspacing="0"
 
{| border="3"  cellpadding="20" cellspacing="0"
|Quantity ||equipment
+
|equipment || Spec sheeet
 +
|-
 +
| Function Generators ( 10 MHz BK precision 4017 A  )1-100 MHz, 0-5 Volt) || [[File:BK4017A_FuncGen_SpecSheet.pdf]]
 +
|-
 +
| Oscilloscope ( 20MHz Gw Instek GOS-620) ||  [[File: GwInstek_GOS-620_manual.pdf]]
 +
|}
 +
 
 +
 
 +
{| border="3"  cellpadding="20" cellspacing="0"
 +
|Quantity || Parts
 
|-
 
|-
 
| >8 || Resistors(10,100,1k,10k,15k,100k,200k,3.3M,20M <math>\Omega</math>)
 
| >8 || Resistors(10,100,1k,10k,15k,100k,200k,3.3M,20M <math>\Omega</math>)
Line 83: Line 114:
 
|  || Silicon Diode ([[File:1N4001.pdf]])
 
|  || Silicon Diode ([[File:1N4001.pdf]])
 
|-
 
|-
|  || Germanium Diode
+
|  || Zener Diode ([[File:EpitaxialZenerDiode_datasheet.pdf]])
 
|-
 
|-
|  || Function Generators ( 10 MHz BK precision 4017 A [[File:BK4017A_FuncGen_SpecSheet.pdf]])1-100 MHz, 0-5 Volt)
+
|  || Transistor (Darlington [[File:NPN 2n6284_NPN_Tansistr.pdf]] , [[File:NPN_2N3904.pdf]], [[File:PNP_2N3906.pdf]] )
|-
 
|  || Oscilloscope ( 20MHz Gw Instek GOS-620 [[File: GwInstek_GOS-620_manual.pdf]])
 
|-
 
|  || Zener Diode ([[File:EpitaxialZenerDiode_datasheet.pdf]])
 
 
|-
 
|-
|  || Transistor (Darlington [[File:NPN 2n8284_NPN_Tansistr.pdf]] )
+
|  || JFET ( [[File:FET_MPF-102ND.pdf]] )
 
|-
 
|-
|  || JFET
+
|  || 741 Op Amp [[File:LM741_OpAmp.pdf]]
 
|}
 
|}
  
  
 +
[[Electronics_RS]]
 +
 +
 +
 +
Cheap Digital scopes
 +
 +
 +
$399
 +
 +
http://www.rigolna.com/products/digital-oscilloscopes/ds1000e/ds1052e/
 +
 +
or
  
 +
$287
 +
http://www.saelig.com/product/PSSA002.htm
  
  
 
[[Forest_Classes]]
 
[[Forest_Classes]]

Latest revision as of 16:39, 31 March 2015

Class Admin

Get Mathematica

https://sites.google.com/a/isu.edu/mathematica/

Linear Fitting with Mathematica

http://reference.wolfram.com/mathematica/ref/LinearModelFit.html


NonLinear Fitting

http://reference.wolfram.com/mathematica/ref/NonlinearModelFit.html

TF_EIM_Syllabus

Class Policies

Forest_Class_Policies

Instructional Objectives

Course Catalog Description
Electronic Instrumentation and Measurement 3 credits. Lecture course with laboratory requirements. Topics include: DC and AC Electrical Circuits, Analog pulses, Bipolar Transistors, Field Effect Transistors, Operational amplifiers.

Prequisites: Phys 2212 and Phys 2214, Math 1170,1175,2275,3360

Course Description
A practical course introducing the fundamental concepts of analog electronics. One third of the course will be used to describe the concepts in a lecture setting with the remaining time spent in a laboratory setting applying the concepts. The course begins with a review of DC and AC analog circuits. Semiconductor physics is introduced to lead into a study of transistors. The use of bipolar transistors for saturated and unsaturated switches is explored. The field effect transistor (FET)is compared with the bipolar transistor.

Texts

  • Introductory Electronics for Scientists and Engineers, Robert E. Simpson , ISBN: 0205083773(required)
  • The Art of Electronics, Paul Horowitz and Winfield Hill

Notes, Labs, and Schedule

Week # Lecture reading Notes Lab A Lab B
1 Chapter 1 (DC Circuits) TF_EIM_Chapt1 LabSkills_TF Lab_1_TF_EIM
2 Chapter 2 (AC Circuits) TF_EIM_Chapt2 Lab_3_TF_EIM Lab_3_TF_EIM cont.
3 Chapter 2 (cont.) Lab_4_TF_EIM Lab_4_TF_EIM cont.
4 Chapter 2 (cont.) Lab_5_TF_EIM Lab_5_TF_EIM cont.
5 Chapter 3 (Pulses) TF_EIM_Chapt3 Lab_6_TF_EIM Lab #6 (cont)
6 Chapter 4 (Semiconductor Physics) TF_EIM_Chapt4 Lab_8_TF_EIM Lab_8_TF_EIM
7 Lab_9_TF_EIM Lab_9_TF_EIM
8 MidTerm (Chapt 1-4) Lab_10_TF_EIM Lab_10_TF_EIM
9 Chapter 5 (Bipolar Transistors) TF_EIM_Chapt5 Lab_13_TF_EIM Lab_13_TF_EIM
10 Lab_14_TF_EIM Lab_14_TF_EIM
11 Lab_14_TF_EIM Lab_14_TF_EIM
12 Chapt 6 (Field Effect Transistors FETs) TF_EIM_Chapt6 Lab_17_TF_EIM Lab_17_TF_EIM
13 Chapt 9 (Operational Amplifiers (OpAmps)) TF_EIM_Chapt9 Lab_23_TF_EIM Lab_23_TF_EIM
14 Lab Choices for Final TF_EIM_Ugrad_FinalLab TF_EIM_GradFinalLab
15 Finals Thursday May 7, 2015 12:30-2:30

Lab_11_TF_EIM

Lab_25_TF_EIM || Lab_27_TF_EIM, Lab_30_TF_EIM||

Dan's Notes

File:DanDale LoopTh Resistors EIM.pdf

File:DanDale Capacitors EIM.pdf

File:DanDale Inductors EIM.pdf

File:DanDale IntroSemiCond EIM.pdf

File:DanDale FET EIM.pdf

File:DanDale OpAmp EIM.pdf


Lab Equipment and Supplies list

For 10 students you will need the following equipment

equipment Spec sheeet
Function Generators ( 10 MHz BK precision 4017 A )1-100 MHz, 0-5 Volt) File:BK4017A FuncGen SpecSheet.pdf
Oscilloscope ( 20MHz Gw Instek GOS-620) File:GwInstek GOS-620 manual.pdf


Quantity Parts
>8 Resistors(10,100,1k,10k,15k,100k,200k,3.3M,20M [math]\Omega[/math])
>8 Capacitors (5,100,560,1000,10000,1000000 pF)
>8 Bi-polar Capacitors (1,100,1000 [math]\mu[/math]F)
>8 10 -100 [math]\mu[/math] H Inductors (0.12,1.2,1.5,2.2,2.7,8.2,12,18,27,33,100,500,3000,5600,6800 [math]\mu[/math]H)
Silicon Diode (File:1N4001.pdf)
Zener Diode (File:EpitaxialZenerDiode datasheet.pdf)
Transistor (Darlington File:NPN 2n6284 NPN Tansistr.pdf , File:NPN 2N3904.pdf, File:PNP 2N3906.pdf )
JFET ( File:FET MPF-102ND.pdf )
741 Op Amp File:LM741 OpAmp.pdf


Electronics_RS


Cheap Digital scopes


$399

http://www.rigolna.com/products/digital-oscilloscopes/ds1000e/ds1052e/

or

$287 http://www.saelig.com/product/PSSA002.htm


Forest_Classes